SU1295372A1 - Metering pump - Google Patents

Abstract

This invention relates to a dosage technique. The purpose of the invention is to improve the accuracy and the expansion of the dosage range. The essence of the invention is that the liquid dispenser contains a unit 1 for supplying and measuring gas flow with an throttle. 2, element 3 as compared to the two-chamber tank 7 with the chambers of periodic refueling 8 and continuous feed 9 communicated between with

Description

the fight through the valve 10, with gas supply tubes 1 1 and 12 placed in them, and, the two-chamber tank is connected through the shut-off parts 1A, -16 and 18 to the air discharge pipelines-13, filling 15 and the dosed product 17. The dispenser is equipped with a pneumatic valve torus 4, switching relays 5, blocks 22 controlling the charging of a two-chamber capacity, measuring the upper and lower liquid levels of the periodic charging chamber, where the output of the pneumatic regulator 4 is connected directly to the choke 2, one of the contacts of the switching relay 5 is connected to the output d rose 2, its other contact is connected to the gas space of the chamber 8 of the periodic refueling below shut-off

one

The invention relates to devices for the continuous supply and control of small flow rates of fluid, both aggressive, viscous, and with mechanical inclusions, and can be used in the chemical, food, microbiological, and medical industries, as well as in laboratory practice.

The purpose of the invention is to improve the accuracy and expansion of the dosage range.

Figure 1 shows a schematic of a liquid dispenser, a general view; Fig. 2 shows the pneumatic diagram of the control units for filling the two-chamber capacity and measuring the upper and lower Her o levels of the liquid in the batch chamber; FIG. 3 is a timing diagram of internal and external block signals.

The dispenser contains a unit 1 for supplying and measuring gas flow, containing the first throttle 2, element 3 for comparison, pneumatic control 4, first switching relay 5 and setpoint 6,

The dispenser also includes a two-chamber capacity 7 with chambers of periodic refueling 8 and continuous supply 9, interconnected through the valve 10. In chambers 8 and 9 are placed

14, and the output with the minus chamber of the comparison element 3, the control unit 22 for charging the two-chamber capacity is connected by appropriate outlets to the gas supply tube 11 to the periodic charging chamber, to the control chamber of the switching relay 5 and to all the shut-off members, upper measuring units and the lower levels, the periodic filling liquids are connected by their inlets, respectively, the first through the charging control unit to the gas supply tube to this chamber, the second directly to the gas space of the chamber below the stop body 14, and the output - to the control unit refueling. 3 il.

five

0

0

tube 11 and 12 of the gas supply. The two-chamber tank 7 is connected to the air discharge pipe 13 through the shut-off body 14, to the filling line 15 with the shut-off body 16 and the duct-17 duct 17 with the shut-off body 18, which allows it to be connected to the process unit 19.

The metering unit also includes measurement units of the upper 20 and lower 2-1. liquid levels, chambers of periodic charging, block of periodic charging and block 22 of the control of charging of two-chamber capacity.

The control unit for charging the dual-chamber tank contains triggers 23-26, switching relays 27-30 and elements OR 31-34, with the first input of the first trigger connected to the input channel for stopping the dosing (Stop), and the second input to the input channel for starting the metering device. element OR 31. The output of the first trigger is connected to another input of the first element OR 31 and the power channels of the second 27 and fourth 29 switching relays. One of the outputs of the second switching relay connected to the shut-off body 14 on the pipeline 13 reset

air and a normally open contact of the third switching relay 28, and another output to the shut-off member 16 on the filling pipe 15 and the normally closed contact of the third switching relay 28, whose flow chambers are connected to the atmosphere and connected to the control chamber of the first switching relay 5 and the first the input unit 20 measuring the upper level of the liquid.

The control camera of the second switching relay 27 is connected to the output of the invert flip-flop 26, one

from the inputs of the fourth element OR 34 15 pipeline 13 air discharge. The output to the control chamber of the third switch is 28. The first input of the second trigger 24 is connected to the stop stop metering input channel, and the second input is connected to the output of the second element OR 32. The output of the second trigger 24 is connected to one of the inputs of the second element OR 32 and to the locking member 18 on the pipeline of the dosed product 17. Inlet 25 is connected by other inputs of the third element of the third trigger 25 to the inlet channel for stopping the dosing Stop and one of the inputs of the third element OR-33, and the output of the third trigger to the other input of the second element OR 32, with another input of this trigger and with the power input of the lower level measuring unit 21. The output of the third element OR 33 is connected to the first input of the fourth trigger 26, the second input of which is connected to the output of the fourth element OR 34, the other input of which is connected to the output upper level measurement unit 20. Quarter exit - 40 minutes.

This switching relay 29 is connected to the control input of the valve 10, and the input is connected to the output of the first trigger 23. The first input of the fifth switching relay 30 is connected to the gas supply tube 12 in the continuous supply chamber 9 and the first input of the lower level measuring unit 2 and normally closed contact first switch

The initial filling cycle of the measuring container 7 is performed as follows. When the refueling control unit is off, the locking member 45 14 and the valve 10 are open, and the organs 16 and 18 are closed. In block 1, the task is set in accordance with the required flow rate.

Start button through the channel

relay 5. The power input of the n-50 start is activated trigger 23. Signal

from it, through normally opening, the contact of the relay 27 enters the locking member 16, which opens. There is a filling of the chamber 55 8 with periodic refilling. In addition, the switching relay 30 is connected to the second output of the upper level measuring unit 20, the output to the air supply tube 11 in the periodic charging chamber 8, and the second input to the output of the fourth switching relay 29. The second input of the lower level measuring unit 21 is connected to the pipeline 13 air vent

by a signal from the trigger 23 turns on the relay 29. The output of the relay 29 is connected to the valve 10, which is closed, as well as to the control chamber of the relay

to the locking organ 14, the first exit - with one of the inputs of the pneumatic control valve 4, and the second exit - with another input of the third element OR 33.

The low-level measurement unit 21 contains an analog element

35 comparison, discrete element

36 and the setting device 37. The two plus chambers of the element 35 (Connected to the first input of the unit. The two minus chambers of the element 35 through the second input of the unit are connected to the gas spaces of the periodic charging chamber to the locking member 14 on

the stroke of the element 35 is connected through the first output of the block with the indicator output of the dispenser (ind. output) and the element 36.

Unit 37 establishes the value of the lower liquid level in the chamber 8 of the container. The output of the setpoint device is connected to another input of the element 36, the output of which is connected to the camete OR 33. The unit 20 for measuring the upper level of the liquid contains a reference element 38, the setting unit 39 and the air flow throttle

the tube. In order to increase the sensitivity of the unit, the 20 output drossel 40 is connected to two positive chambers of the element 38. The setting unit 39 sets the value of the upper level of the liquid.

The output of the element 38 is connected through the first output of the block to one of the inputs of the element RSHI 34.

The dispenser operates as follows: The initial filling cycle of the measuring container 7 is performed as follows. When the refueling control unit is off, the locking member 45 14 and the valve 10 are open, and the organs 16 and 18 are closed. In block 1, the task is set in accordance with the required flow rate.

Start button through the channel

from it, through normally opening, the contact of the relay 27 enters the locking member 16, which opens. There is a filling of the chamber 8 with periodic filling with liquid. In addition, the signal from the trigger 23 turns on the relay 29. The output of the relay 29 is connected to the valve 10, which is closed, as well as to the control camera of the relay

30. It switches, connecting through its normally closed contact and exit tube 11 for supplying gas from chamber 8 of non-periodic refueling to the output of throttle: 40. Air coming from normally open contact of relay 27 feeds through the first input unit 20, i.e. it goes into operation, after which the air from the droplets 40 enters the tube 11, where the measurement of the level of the fluid filling the chamber 8 is performed. The signal from the relay 27 also switches the relay 5 by connecting the negative camera of the comparison element 3 directly to the output of the alternating droplet 2. when the liquid level reaches the pipeline 13, the comparison element 38 is triggered. The signal from its output includes a trigger 26, which in turn switches the relay 27 and, therefore, closes the locking bodies 14 and 16. The same signal turns on the trigger 24, which opens the locking member 18, the trigger 25, the comparison powering element 36, and the relay 29 is turned off. In the absence of a signal at the output of the relay 29, the valve opens, the liquid from the chamber .8 fills the chamber 9, the relay 30 is connected through its normally open contact: With one of the outputs of the block 22, the signal from the throttles 2 disappears, the gas in the tube 11 of the chamber 8 is intermittent filling starts from the tank 7 with a flow rate directly proportional to the gas flow on the throttle 2, to the process apparatus 19. When the relay 27 is switched by a signal from the trigger 26, the power supply of the unit 20 is switched off and the relay 5 is switched, which now connects the minus chamber nta 3 in comparison with chamber 8. When extruding liquid from chamber 8, the gas pressure is above the level of the liquid coming from. the tube P increases by the amount of pressure the table: ba of the liquid displaced from the chamber, and the flow rate of the fluid is maintained and the proposed design of the dispenser reduces to replacing the pressure reducer and the setpoint controller with a pneumatic regulator connected by its

corresponds to the specified. It reaches-50 s by connecting the negative ka-exit directly to the narrowing measure of the comparison element 3 to the gas element, after which the chamber space is absent.

The pneuma Element 3 of the comparison unit measures the measuring part of the supply unit and the height of the liquid column (neither its gas flow rate and the accuracy of the dose-hydrostatic pressure) and introduces vanilla up to 1%.

regulating effect on the pneumatic connection of the minus chamber of the regulator element 4. The regulator works out comparing the metering unit of flow hectare

five

0

five

This effect increases the pressure drop across the throttle, thereby maintaining the flow rate of the fluid within the specified range. The fluid level in chamber B is measured by block 21, namely, reference element 35. With a decrease in level B, chamber B decreases the air pressure at the outlet of element 35, the signal from which is transmitted to the indicator outlet of the metering device. The output of element 35 is also applied to the minus chamber of element 36. When the signal at the output of element 35 decreases to the pressure in the positive chamber of element 36 set by the pointer 37, the output of element 36 is signal 1. This signal turns off the trigger 26 and switches relays 27, 29 and 30 are energized by block 20 and, accordingly, the locking members 14 and 16 are opened and the valve is closed. The gas through the tube 12 continues to flow into the chamber 9 of the tank 7 and squeezes the liquid out of it into the process unit 19 with the flow rate established.

Fluid flow rate is maintained by connecting the negative chamber.

Comparison element 3 via relay 5, also switching, to tube 8. During this period, chamber 8 is filled with liquid and its level is measured, as already described. With

actuation of the comparison element 38, the dispenser switches to dispensing liquid from the chamber 8. The dispenser is turned off by the second control button through the input channel

Stop. Triggers 23-25, i.e. the air supply to the unit 22 is turned off. The power is turned on by the control button and the dispenser starts its operation. Liquid

squeezed out of chamber 9, and chamber 8 filled.

The proposed design of the dispenser, reducing to the replacement of the pressure reducer and the setting device with a pneumatic regulator connected by its

exit directly to the narrowing element, after which there is no regulating actuator,

through a switching relay with the gas space of the periodic charging chamber will eliminate the decrease in fluid flow with a decrease in the level in this chamber, as well as the effect on the flow rate of a possible change in the hydraulic resistance in the process apparatus. An adjustable restriction element allows the gas flow to be deflated in several ranges, for example, O - 1; O - 2; 0.5 - 5 and 0.5 - 10 l / h, which will make it possible to switch over to the required range of liquid dispensing during operation. The use of control units for measuring the upper and lower levels of the liquid in the batch chamber increases the metering accuracy due to its

temporary switching of the metering chamber chambers and full filling of the chamber of periodic refilling.

Claims (1)

Invention Formula - A liquid dispenser containing a gas supply and flow metering unit with a first throttle, setting device and the first reference element and a two-chamber tank with chambers of periodic refueling and continuous supply, interconnected through the valve and with gas supply tubes placed in the chambers, the two-chamber tank being connected through stop valves bodies to the air discharge pipeline and the filling pipelines and the withdrawn product, characterized in that, in order to increase the accuracy and broaden the dosing range, The pneumo-regulator, the first switching relay, the measuring blocks of the upper and lower liquid levels in the periodic charging chamber, as well as the control unit for filling the two-chamber capacity, consisting of triggers switching relays, and OR elements, the pneumatic regulator output directly connected to the first the throttle, made adjustable, normally close the contact of the first switching relay is connected to, the output of the first throttle, its normally open contact is connected to the gas space of the periodic chamber refueling to a shut-off valve in the air discharge pipe, and the exit is from the minus chamber of an element of 5 to 0 e 20 25 30 35 40 - 45 50, the first positive chamber of which is connected to the set point, the second positive chamber to the outlet of the pneumatic regulator, and the output to the pneumatic regulator, the first input of the first trigger switch, the second input to the input the start channel of the metering device through the first OR element, the output of the first trigger is connected to another input of the first OR element and the power channels of the second and fourth switching relays, one of the outputs of the second switching relay is connected to a shut-off element on the reset pipeline in and a normally open contact of the third switching relay, and another output to a shut-off element on the filling pipeline, to the normally closed contact of the third switching relay, whose flow chambers are connected to the atmosphere, to the control chamber of the first switching relay and the first input of the upper measuring unit liquid level, the control chamber of the second switching relay is connected to the output of the fourth trigger, one of the inputs of the fourth OR element, and the control camera of the third switching relay, the first input The second trigger is connected to the inlet stop channel, the second inlet is connected to the output of the second OR element, and the outlet is connected to one of the inputs of the second OR element and to the shut-off element on the pipeline of the dosed product, the first entrance to the third stop metering and one of the inputs of the third element OR, and the output of the third trigger is connected to one of the inputs of the second element OR, to another input of this trigger and to the power input of the measuring unit of the lower liquid level, the output of the third the OR element is connected to the first input of the fourth trigger, the second input of which is connected to the output of the fourth OR element, another input of which is connected to the output of the upper liquid level measuring unit, the output of the fourth switching relay is connected to the control of the valve input, and the input to the output of the first trigger , the first input of the fifth switching relay is connected to the gas supply tube in the continuous supply chamber and the first input 91 The unit for measuring the lower level of the liquid and the normally closed contact of the first non-switching relay supplies the input of the fifth switching relay to the second input of the measuring unit of the upper level, the output to the supply tube in the periodic charging chamber, and the second input to the fourth switch 2995372. ten A second relay of the unit for measuring the lower level of the liquid is connected to the gas space of the periodic charging chamber up to the valve in the pipeline from the air outlet, the first output is connected to the indicator outlet of the dispenser, and the second output is connected to another input of the third element. P § 41 $ & i | it ii%: § I I I I five I I I § I ABOUT 5 o in 3 I-. il li I five I } Ijjqq It  - five n§. five; CHE 1 v4 u i r "NJ g "N4 k) " (Si I 5t J tv five) l §one " 41  oi “Vi- .CE I-.  {five III § yj Editor I. Derbak Compiler O.Gudkova Tehred L. Serdyukova Proofreader, I. Muska Order 617/54 Edition 864 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 4/5, Moscow, Zh-35, Raushsk nab. 113035 Production and printing company, Uzhgorod, st. Project, 4